Integrating Polymerase Chain Reaction, Valving, and Electrophoresis in a Plastic Device for Bacterial Detection

Abstract. In content-based image retrieval (CBIR) and image screening, it is often desirable to locate the regions of interest (ROI) in the images automatically. This can be accomplished with multi-instance learning techniques by treating each image as a bag of instances (regions). Many SVM-based methods are successful in predicting the bag labels, however, few of them can locate the ROIs. Moreover, they are often based on either local search or an EM-style strategy, and may get stuck in local minima easily. In this paper, we propose two convex optimization methods which maximize the margin of concepts via key instance generation at the instance-level and bag-level, respectively. Our formulation can be solved efficiently with a cutting plane algorithm. Experiments show that the proposed methods can effectively locate ROIs, and they also achieve performances competitive with state-of-the-art algorithms on benchmark data sets.

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Partial Label Learning with Unlabeled Data

Wang

Zhou

2019

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Partial label learning deals with training examples each associated with a set of candidate labels, among which only one label is valid. Previous studies typically assume that the candidate label sets are provided for all training examples. In many real-world applications such as video character classification, however, it is generally difficult to label a large number of instances and there exists much data left to be unlabeled. We call this kind of problem semi-supervised partial label learning. In this paper, we propose the SSPL method to address this problem. Specifically, an iterative label propagation procedure between partial label examples and unlabeled instances is employed to disambiguate the candidate label sets of partial label examples as well as assign valid labels to unlabeled instances. The importance of unlabeled instances increases adaptively as the number of iteration increases, since they carry richer labeling information. Finally, unseen instances are classified based on the minimum reconstruction error on both partial label and unlabeled instances. Experiments on real-world data sets clearly validate the effectiveness of the proposed SSPL method.

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An approach for surface roughness measurement of helical gears based on image segmentation of region of interest

Zhang

et al. 2021

Measurement

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A Coarse-to-Fine Two-Stage Attentive Network for Haze Removal of Remote Sensing Images

Chen

2021

IEEE Geosci. Remote Sensing Lett.

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Depth camera based remote three-dimensional reconstruction using incremental point cloud compression

Gao

Wang

et al. 2022

Computers and Electrical Engineering

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Yufeng Li

A Convex Method for Locating Regions of Interest with Multi-instance Learning

Partial Label Learning with Unlabeled Data

An approach for surface roughness measurement of helical gears based on image segmentation of region of interest

A Coarse-to-Fine Two-Stage Attentive Network for Haze Removal of Remote Sensing Images

Depth camera based remote three-dimensional reconstruction using incremental point cloud compression

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